An apparatus includes an integrated circuit and a substrate coupled to the integrated circuit. The substrate includes a primary layer having a first surface that is a first external surface of the substrate. The primary layer includes an open area that extends through the primary layer to an inner layer of the substrate. The substrate includes a secondary layer. The inner layer is located between the primary layer and the secondary layer. The inner layer includes a third surface that is orientated approximately parallel to the first surface of the primary layer. A portion of the third surface of the inner layer is exposed via the open area of the primary layer. A first plurality of wire bond pads are disposed on the portion of the third surface of the inner layer that is exposed via the open area of primary layer.

A semiconductor device package having galvanic isolation is provided. The semiconductor device package includes a package substrate having a first inductive coil. A first semiconductor die is attached to a first major surface of the package substrate. The first semiconductor die includes a second inductive coil substantially aligned with the first inductive coil. A second semiconductor die is attached to the first major surface of the package substrate. A wireless communication link between the first semiconductor die and the second semiconductor die is formed by way of the first and second inductive coils.

A semiconductor storage device according to an embodiment includes a substrate, a first semiconductor chip, and a second semiconductor chip. The first semiconductor chip includes a first surface contacting with the substrate, a second surface on an opposite side to the first surface, and a first pad provided on the second surface. The second semiconductor chip includes a third surface contacting with the second surface, a fourth surface on an opposite side to the third surface, and a cutout portion. The cutout portion is provided at a corner portion where the third surface crosses a lateral surface between the third surface and the fourth surface. The cutout portion overlaps with at least a part of the first pad as viewed from above the fourth surface.

A semiconductor device according to the present embodiment includes a circuit board comprising a plurality of electrodes provided on a first surface, a first resin layer provided on the first surface around the electrodes, and a second resin layer provided on the first resin layer. A first semiconductor chip is connected to a first one of the electrodes. A second semiconductor chip is provided above the first semiconductor chip, being larger than the first semiconductor chip, and is connected to a second one of the electrodes via a metal wire. A third resin layer is provided between the first semiconductor chip and the second semiconductor chip and between the second resin layer and the second semiconductor chip, and covers the first semiconductor chip.

One or more embodiments are directed to methods of forming one or more cantilever pads for semiconductor packages. In one embodiment a recess is formed in a substrate of the package facing the cantilever pad. The cantilever pad includes a conductive pad on which a conductive ball is formed. The cantilever pad is configured to absorb stresses acting on the package.

Disclosed are interconnection patterns and semiconductor packages including the same. The interconnection pattern comprises a first dielectric layer, a first interconnection pattern in the first dielectric layer, a first barrier layer between the first interconnection pattern and the first dielectric layer, a first top surface of the first barrier layer located at a level lower than that of a second top surface of the first dielectric layer and lower than that of a third top surface of the first interconnection pattern, a second barrier layer on the first barrier layer, the second barrier layer interposed between the first interconnection pattern and the first dielectric layer, a second dielectric layer on the first dielectric layer, the first interconnection pattern, and the second barrier layer, and a second interconnection pattern formed in the second dielectric layer and electrically coupled to the first interconnection pattern.

A semiconductor package includes a base substrate, an insulating layer including a first region disposed on the base substrate and in which first and second openings are disposed and a second region, a remaining region of the base substrate other than the first region, a first semiconductor chip disposed on the base substrate and including bonding pads disposed closely to a first edge, at least one second semiconductor chip stacked on the first semiconductor chip in the form of a staircase toward a second edge, parallel to the first edge, and a molding portion covering the base substrate to encapsulate the first and second semiconductor chips, wherein the length of the first edge is disposed to overlap the second region, both ends of the second edge are disposed to overlap the first and second openings, and the molding portion fills the first and second openings.

A display device comprises a display panel substrate and a glass substrate over said display panel substrate, wherein said display panel substrate comprises multiple contact pads, a display area, a first boundary, a second boundary, a third boundary and a fourth boundary, wherein said display area comprises a first edge, a second edge, a third edge and a fourth edge, wherein said first boundary is parallel to said third boundary and said first and third edges, wherein said second boundary is parallel to said fourth boundary and said second and fourth edges, wherein a first least distance between said first boundary and said first edge, wherein a second least distance between said second boundary and said second edge, a third least distance between said third boundary and said third edge, a fourth distance between said fourth boundary and said fourth edge, and wherein said first, second, third and fourth least distances are smaller than 100 micrometers, and wherein said glass substrate comprising multiple metal conductors through in said glass substrate and multiple metal bumps are between said glass substrate and said display panel substrate, wherein said one of said metal conductors is connected to one of said contact pads through one of said metal bumps.

The present disclosure relates to a semiconductor structure and a method of manufacturing the semiconductor structure. The semiconductor structure includes a substrate including a first surface and a conductive trace extending over the substrate; a die disposed over the first surface of the substrate; a molding disposed over the first surface of the substrate and covering the die; and a metallic layer surrounding the molding and the substrate, wherein the metallic layer is electrically connected to at least a portion of the conductive trace exposed through the substrate.

A semiconductor package includes a frame having a first surface, a second surface opposite the first surface, and a through-hole, a first semiconductor chip in the through-hole of the frame, a second semiconductor chip on the frame, a first connection structure on the first surface of the frame and including a first redistribution structure electrically connected to the first semiconductor chip and having a third surface contacting the first surface of the frame, the first redistribution structure including a first redistribution layer and a first redistribution via, a first pad on a center portion of a fourth surface of the first redistribution structure opposite the third surface, a second pad on an edge portion of the fourth surface, a second connection structure on the second surface and comprising a second redistribution structure electrically connected to the second semiconductor chip and including a second redistribution layer and a second redistribution via, and an electrical connection metal on the first pad on the fourth surface, wherein the electrical connection metal is not on the second pad.